// SPDX-License-Identifier: GPL-2.0 #ifndef QMLINTERFACE_H #define QMLINTERFACE_H #include "core/settings/qPrefCloudStorage.h" #include "core/settings/qPrefUnit.h" #include "core/settings/qPrefDivePlanner.h" #include "core/settings/qPrefTechnicalDetails.h" #include "qt-models/diveplannermodel.h" #include #include // This class is a pure interface class and may not contain any implementation code // Allowed are: // header // Q_PROPERTY // signal/slot for Q_PROPERTY functions // the functions may contain either // a) a function call to the implementation // b) a reference to a global variable like e.g. prefs. // Q_INVOCABLE functions // the functions may contain // a) a function call to the implementation // source // connect signal/signal to pass signals from implementation class QMLInterface : public QObject { Q_OBJECT // Q_PROPERTY used in QML Q_PROPERTY(CLOUD_STATUS cloud_verification_status READ cloud_verification_status WRITE set_cloud_verification_status NOTIFY cloud_verification_statusChanged) Q_PROPERTY(DURATION duration_units READ duration_units WRITE set_duration_units NOTIFY duration_unitsChanged) Q_PROPERTY(LENGTH length READ length WRITE set_length NOTIFY lengthChanged) Q_PROPERTY(PRESSURE pressure READ pressure WRITE set_pressure NOTIFY pressureChanged) Q_PROPERTY(TEMPERATURE temperature READ temperature WRITE set_temperature NOTIFY temperatureChanged) Q_PROPERTY(UNIT_SYSTEM unit_system READ unit_system WRITE set_unit_system NOTIFY unit_systemChanged) Q_PROPERTY(TIME vertical_speed_time READ vertical_speed_time WRITE set_vertical_speed_time NOTIFY vertical_speed_timeChanged) Q_PROPERTY(VOLUME volume READ volume WRITE set_volume NOTIFY volumeChanged) Q_PROPERTY(WEIGHT weight READ weight WRITE set_weight NOTIFY weightChanged) Q_PROPERTY(int ascratelast6m READ ascratelast6m WRITE set_ascratelast6m NOTIFY ascratelast6mChanged); Q_PROPERTY(int ascratestops READ ascratestops WRITE set_ascratestops NOTIFY ascratestopsChanged); Q_PROPERTY(int ascrate50 READ ascrate50 WRITE set_ascrate50 NOTIFY ascrate50Changed); Q_PROPERTY(int ascrate75 READ ascrate75 WRITE set_ascrate75 NOTIFY ascrate75Changed); Q_PROPERTY(int descrate READ descrate WRITE set_descrate NOTIFY descrateChanged); Q_PROPERTY(bool safetystop READ safetystop WRITE set_safetystop NOTIFY safetystopChanged); Q_PROPERTY(int gflow READ gflow WRITE set_gflow NOTIFY gflowChanged); Q_PROPERTY(int gfhigh READ gfhigh WRITE set_gfhigh NOTIFY gfhighChanged); Q_PROPERTY(int vpmb_conservatism READ vpmb_conservatism WRITE set_vpmb_conservatism NOTIFY vpmb_conservatismChanged); Q_PROPERTY(bool drop_stone_mode READ drop_stone_mode WRITE set_drop_stone_mode NOTIFY drop_stone_modeChanged); Q_PROPERTY(bool last_stop6m READ last_stop6m WRITE set_last_stop6m NOTIFY last_stop6mChanged); Q_PROPERTY(bool switch_at_req_stop READ switch_at_req_stop WRITE set_switch_at_req_stop NOTIFY switch_at_req_stopChanged); Q_PROPERTY(bool display_runtime READ display_runtime WRITE set_display_runtime NOTIFY display_runtimeChanged); Q_PROPERTY(bool display_duration READ display_duration WRITE set_display_duration NOTIFY display_durationChanged); Q_PROPERTY(bool display_transitions READ display_transitions WRITE set_display_transitions NOTIFY display_transitionsChanged); Q_PROPERTY(bool verbatim_plan READ verbatim_plan WRITE set_verbatim_plan NOTIFY verbatim_planChanged); Q_PROPERTY(bool display_variations READ display_variations WRITE set_display_variations NOTIFY display_variationsChanged); public: static QMLInterface *instance(); // function to do the needed setup and do connect of signal/signal static void setup(QQmlContext *ct); // Duplicated enums, these enums are properly defined in the C/C++ structure // but duplicated here to make them available to QML. // Duplicating the enums poses a slight risk for forgetting to update // them if the proper enum is changed (e.g. assigning a new start value). // remark please do not use these enums outside the C++/QML interface. enum UNIT_SYSTEM { METRIC, IMPERIAL, PERSONALIZE }; Q_ENUM(UNIT_SYSTEM); enum LENGTH { METERS, FEET }; Q_ENUM(LENGTH); enum VOLUME { LITER, CUFT }; Q_ENUM(VOLUME); enum PRESSURE { BAR, PSI, PASCALS }; Q_ENUM(PRESSURE); enum TEMPERATURE { CELSIUS, FAHRENHEIT, KELVIN }; Q_ENUM(TEMPERATURE); enum WEIGHT { KG, LBS }; Q_ENUM(WEIGHT); enum TIME { SECONDS, MINUTES }; Q_ENUM(TIME); enum DURATION { MIXED, MINUTES_ONLY, ALWAYS_HOURS }; Q_ENUM(DURATION); enum CLOUD_STATUS { CS_UNKNOWN, CS_INCORRECT_USER_PASSWD, CS_NEED_TO_VERIFY, CS_VERIFIED, CS_NOCLOUD }; Q_ENUM(CLOUD_STATUS); public: CLOUD_STATUS cloud_verification_status() { return (CLOUD_STATUS)prefs.cloud_verification_status; } DURATION duration_units() { return (DURATION)prefs.units.duration_units; } LENGTH length() { return (LENGTH)prefs.units.length; } PRESSURE pressure() { return (PRESSURE)prefs.units.pressure; } TEMPERATURE temperature() { return (TEMPERATURE)prefs.units.temperature; } UNIT_SYSTEM unit_system() { return (UNIT_SYSTEM)prefs.unit_system; } TIME vertical_speed_time() { return (TIME)prefs.units.vertical_speed_time; } VOLUME volume() { return (VOLUME)prefs.units.volume; } WEIGHT weight() { return (WEIGHT)prefs.units.weight; } int ascratelast6m() { return DivePlannerPointsModel::instance()->ascratelast6mDisplay(); } int ascratestops() { return DivePlannerPointsModel::instance()->ascratestopsDisplay(); } int ascrate50() { return DivePlannerPointsModel::instance()->ascrate50Display(); } int ascrate75() { return DivePlannerPointsModel::instance()->ascrate75Display(); } int descrate() { return DivePlannerPointsModel::instance()->descrateDisplay(); } bool safetystop() { return prefs.safetystop; } int gflow() { return prefs.gflow; } int gfhigh() { return prefs.gfhigh; } int vpmb_conservatism() { return prefs.vpmb_conservatism; } bool drop_stone_mode() { return prefs.drop_stone_mode; } bool last_stop6m() { return prefs.last_stop; } bool switch_at_req_stop() { return prefs.switch_at_req_stop; } bool display_runtime() { return prefs.display_runtime; } bool display_duration() { return prefs.display_duration; } bool display_transitions() { return prefs.display_transitions; } bool verbatim_plan() { return prefs.verbatim_plan; } bool display_variations() { return prefs.display_variations; } public slots: void set_cloud_verification_status(CLOUD_STATUS value) { qPrefCloudStorage::set_cloud_verification_status(value); } void set_duration_units(DURATION value) { qPrefUnits::set_duration_units((units::DURATION)value); } void set_length(LENGTH value) { qPrefUnits::set_length((units::LENGTH)value); } void set_pressure(PRESSURE value) { qPrefUnits::set_pressure((units::PRESSURE)value); } void set_temperature(TEMPERATURE value) { qPrefUnits::set_temperature((units::TEMPERATURE)value); } void set_unit_system(UNIT_SYSTEM value) { qPrefUnits::set_unit_system((unit_system_values)value); } void set_vertical_speed_time(TIME value) { qPrefUnits::set_vertical_speed_time((units::TIME)value); } void set_volume(VOLUME value) { qPrefUnits::set_volume((units::VOLUME)value); } void set_weight(WEIGHT value) { qPrefUnits::set_weight((units::WEIGHT)value); } void set_ascratelast6m(int value) { DivePlannerPointsModel::instance()->setAscratelast6mDisplay(value); } void set_ascratestops(int value) { DivePlannerPointsModel::instance()->setAscratestopsDisplay(value); } void set_ascrate50(int value) { DivePlannerPointsModel::instance()->setAscrate50Display(value); } void set_ascrate75(int value) { DivePlannerPointsModel::instance()->setAscrate75Display(value); } void set_descrate(int value) { DivePlannerPointsModel::instance()->setDescrateDisplay(value); } void set_safetystop(bool value) { DivePlannerPointsModel::instance()->setSafetyStop(value); } void set_gflow(int value) { DivePlannerPointsModel::instance()->setGFLow(value); } void set_gfhigh(int value) { DivePlannerPointsModel::instance()->setGFHigh(value); } void set_vpmb_conservatism(int value) { DivePlannerPointsModel::instance()->setVpmbConservatism(value); } void set_drop_stone_mode(bool value) { DivePlannerPointsModel::instance()->setDropStoneMode(value); } void set_last_stop6m(bool value) { DivePlannerPointsModel::instance()->setLastStop6m(value); } void set_switch_at_req_stop(bool value) { DivePlannerPointsModel::instance()->setSwitchAtReqStop(value); } void set_display_runtime(bool value) { DivePlannerPointsModel::instance()->setDisplayRuntime(value); } void set_display_duration(bool value) { DivePlannerPointsModel::instance()->setDisplayDuration(value); } void set_display_transitions(bool value) { DivePlannerPointsModel::instance()->setDisplayTransitions(value); } void set_verbatim_plan(bool value) { DivePlannerPointsModel::instance()->setVerbatim(value); } void set_display_variations(bool value) { DivePlannerPointsModel::instance()->setDisplayVariations(value); } signals: void cloud_verification_statusChanged(CLOUD_STATUS); void duration_unitsChanged(DURATION); void lengthChanged(LENGTH); void pressureChanged(PRESSURE); void temperatureChanged(TEMPERATURE); void unit_systemChanged(UNIT_SYSTEM); void vertical_speed_timeChanged(TIME); void volumeChanged(VOLUME); void weightChanged(WEIGHT); void ascratelast6mChanged(int); void ascratestopsChanged(int); void ascrate50Changed(int); void ascrate75Changed(int); void descrateChanged(int); void safetystopChanged(bool value); void gflowChanged(int value); void gfhighChanged(int value); void vpmb_conservatismChanged(int value); void drop_stone_modeChanged(bool value); void last_stop6mChanged(bool value); void switch_at_req_stopChanged(bool value); void display_runtimeChanged(bool value); void display_durationChanged(bool value); void display_transitionsChanged(bool value); void verbatim_planChanged(bool value); void display_variationsChanged(bool value); private: QMLInterface() {} }; #endif // QMLINTERFACE_H